DE2600403A1 - INDUCTIVE PLUG-IN COUPLING - Google Patents

Description

The invention relates to inductive plug-in couplings in particular of the type used in communication systems are suitable, although their use is not limited thereto, and those for impedance matching is provided with a so-called dummy load.

Electric couplings are made up of at least two parts that can be connected or separated from each other. Most electric

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Couplings are of a type that may be referred to as direct couplings. With a direct coupling electrically conductive contacts of the two parts are brought into physical contact with one another when the coupling is plugged in, creating an electrically conductive path through the coupling. With direct Electrical couplings suffer from one or more of the following disadvantages: arcing or sparking; Contact corrosion, pitting or oxidation; the inability to use in an explosive atmosphere or in the vicinity of an electrically conductive medium such as water.

Inductive couplings have been proposed to avoid these disadvantages. In the case of an inductive coupling there is no direct transfer of electrical energy from one coupling part to the other. Instead it is the electrical energy is inductively coupled from one coupling part to the other in the manner of a transformer. A simple form of an inductive coupling consists of a plug part with a coil, which is on a ferromagnetic Core wound or wound around such a, and from a socket part with an opening to accommodate the core, which is surrounded by a coil.

Inductive couplings can be used in a conductive medium such as water and are used in both high voltage networks as well as in communication systems. In the case of the known inductive couplings, there is however, one problem when used in communication systems is the problem the impedance matching when various inductive couplings of the system are connected and disconnected. Let it be

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For example, consider the case in which a generator (Transmitter) with 20 multiplex output channels with different receivers are connected. When one or more of the inductive clutches are released, it arises immediately an impedance mismatch leading to a poor or unusable system performance. The impedance mismatch follows from the fact that when the two parts of one of the inductive couplings are disconnected, the one seen by the generator in the duct Impedance in which the clutch is located changes to an inductive load of low impedance.

The object of the invention is therefore to develop an inductive coupling with a reactive load so that the aforementioned Impedance mismatch problem can be avoided.

In this connection it should be mentioned that in British Patent 1,366,134 of September 11, 1974 an inductive coupling and various systems for limiting the current in the primary circuit of the same when the two parts of the coupling are separated, are described. In one embodiment, the current limit is achieved in that the primary winding is connected in a circuit that is at least approximately to the frequency the supply is matched when the parts of the coupling are connected, but detuned by the separation of the parts will. In another embodiment, the Impedance of the primary circuit prevented from being too low to ground when the coupling parts are through the additional Use an "armature" to separate the primary magnetic circuit. The same solution was found in the British Patent 392 052 of May 11, 1933 proposed. In both cases, the systems and devices that do

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in the cited patents are described on the limitation of the primary current and not on the impedance matching is directed.

In particular, the subject of the invention is an inductive one Coupling with a first and a second part, which cooperate and are separable from one another Parts movable into a first cooperation position are, in which electrical energy can be inductively coupled between the mentioned parts, which Parts can be separated from each other in order to interrupt the flow of electrical energy between the parts, the first part has a first and a second coil, the second part a third coil, the first and the third coil are formed and arranged so that when the mentioned parts in the first Position are located, the first and the third coil are inductively coupled, while the second coil in a Position is movable in which it is inductively coupled to the first coil when the mentioned parts from each other are separated, an impedance is connected in the circuit of the second coil and the second part Means are assigned by which the second coil is moved out of inductive coupling with the first coil when the mentioned parts are moved to the first position.

In the accompanying drawings are various embodiments of the invention shown in Fig. 1-4, which sectional views through inductive according to the invention Show clutches.

In Fig. 1, a double-sided, automatically loaded inductive coupling is shown. She is going through

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a plug part 10 and a socket part 11 are formed. Both parts usually have a cylindrical shape, which However, shape is not a critical factor.

The plug part 10 has a housing 12 made of a suitable electrically insulating material, in which a Coil or winding 13 is encapsulated or arranged. The coil 13 is connected to leads 14, which consist of the housing 12 are led out. A core 15 made of ferromagnetic material is fastened in the housing 12. A Ferrite core is particularly suitable. The coil 13 is wound around the core 15. At one end of the core 15 there is a non-magnetic end cap 16.

The socket part 11 has a housing 17 made of a suitable electrically insulating material, in which a Coil or winding 16 is encapsulated or arranged. The coil 18 is connected to leads 19, which consist of the Housing 17 are led out. An opening or a cavity 20 is provided within the housing 17 and the Coil 18 surrounds that part of the opening 20 which is at one end of the housing 17 is located.

Inside the cavity 20 there is a substantially cylindrical insert 21 made of electrically insulating material, in which a coil or winding 22 is arranged, which is connected to a resistor 23 or some other load impedance is connected, which is also arranged in the insert 21 so that it forms a dummy load. The sink is wound around a ferromagnetic core 24 which is disposed or embedded in the insert 21. The use 21 is spring loaded to the position shown in Fig. 1, although other loading arrangements are also used could become. The insert 21 has a flange 26

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formed, which cooperates with a flange 27 which is provided on the housing 17 to the insert in the correct To hold position.

When the coupling parts IO and 11 are separated, as shown in Fig. shows, the insert 21 assumes the position shown in FIG. 1 under the action of the spring 25. Are in this position the coils 18 and 22 inductively coupled and the generator (not shown), which is connected to the supply lines 19, instead of facing an inductive load of low impedance, as would be the case if no reactive load were provided, a load impedance is encountered opposite, which is approximately equal to the product of the turns ratio of the coils 18 and 22 and the value of the resistance 23 is. By changing either the turns ratio or the value of the resistor 23, this load impedance made identical to that which the generator faces when the two parts the inductive coupling are connected to each other.

When the two parts 10 and 11 are connected to one another, the insert 21 is opposed to the rear end of the cavity 20 the action of the spring 25 is displaced by the insertion of the core 15 and the end cap 16 into the cavity 20. The coil 18 then surrounds the core 15 so that an inductive coupling between the coils 13 and 18 via the core 15 is achieved will.

The coupling according to FIG. 1 is directed in both directions, since the coils 13 and 18 are the same or approximately the same Have a distance from the core 15 when the coupling is inserted.

The embodiment shown in FIG. 2 is that in FIG. 1 shown similarly except that multiple coils

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13a and 13b, 18a and 18b, 22a and 22b have multiple cores 15a and 15b, 24a and 24b, several leads 14a and 14b, 19a and 19b and several resistors 23a and 23b are provided are. It can also be seen that when the coupling parts are seekt together, the coils 13a and 13b are between the coils 18a and 18b and the cores 15a and 15b. Due to the difference in the distance between the Cores 15a and 15b and coils 13a and 13b and coils 18a and 18b, the coupling according to FIG. 2 is a unidirectional one Coupling in the sense that it is more effective at coupling electrical energy in one direction (from the plug to the Socket) than in the other direction.

Of course, more channels than just two can be supplied if the principle shown in FIG. 2 is a plurality of components is expanded.

It should be mentioned that in Fig. 1 and 2 no special device is shown through which the plug and Bushing parts are held together. Any suitable device can be used for this purpose. For example, the plug part can be provided with an external thread and one with an internal thread on the socket part provided cap be arranged, which is rotatable with respect to the socket part, but on this, for example by cooperating flanges, is attached. If the two parts of the coupling are to be connected to one another, the cap only needs to be screwed onto the plug.

In the embodiment of the invention shown in FIG. 3, in which the parts of the coupling are rectangular in cross-section are in place of the cylindrical cores 15 and 24 of Fig. 1 so-called pot cores provided. A pot core is

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just a disk made of ferromagnetic ^ material, which is provided with an annular recess in which an annular winding is located. In the embodiment According to FIG. 3, a pot core is also provided for the winding 18 and the windings 13 are closely coupled and 18 or 22 and 18 is achieved with the aid of a spring loaded ball 50 which rests against the part of the connector housing 12, which contains the core 15 when the coupling parts are coupled together, and against the insert 21, when the coupling parts are separated from each other.

As mentioned, the insert 21 can be made movable by means other than a spring. In the embodiment According to Fig. 3, a magnet 31 is embedded in the insert 21 and another magnet is in the housing 12 on the specified position embedded. The magnets are polarized so that they attract each other. Therefore, when the plug part is removed from the socket part, the insert 21 automatically moves to the open end of the cavity 20. This movement comes to a standstill when stops on the insert 21 and on the socket housing 17 come to rest, whereupon the coil 22 is inductively coupled to coil 18 because it is in direct alignment with it.

It should also be mentioned that the magnet 32 can be an electromagnet. In this case, the movement of the bet can be controlled by controlling the supply of current to the electromagnet. Hence, if from any Basically the insert 21 should not be moved into its normal position when the coupling parts are separated, this one Electromagnet not energized.

The insert 21 can also be hydraulic or pneumatic

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Means are moved, optionally controlled automatically.

It should also be mentioned that the insert 21 does not necessarily have to be assigned to the socket part 11. He can be assigned to the plug part 10 or inserts 21 can be used for both the plug part and the socket part be provided. In the embodiment of FIG. 4 is the Insert 21 assigned to the plug part 10 and loaded when the two parts of the coupling are separated from each other the spring 25 the insert 21 so that the coils 13 and 22 are inductively coupled, in which case the insert 21 moved in an opening 40 provided in the plug part 10.

Although in all of the described embodiments of the invention ferromagnetic cores have been used, it is known to those skilled in the art that such cores operate at high frequencies are not required and can therefore be omitted in such cases. In the cases mentioned, air cores or cores made of other materials, such as plastic, can be used.

In any embodiment of the invention, if the insert 21 is driven with sufficient force, for example by a hydraulic or pneumatic force, In order to separate the two parts of the coupling from each other, the coupling is like a switch and can also be used as such will.

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Claims (20)

Requests: 1.j Inductive plug-in coupling with a first and a second part, which cooperate with each other and are separable from each other, which parts in a first cooperation division are movable, in which electrical energy zv / ischen the mentioned parts inductively can be coupled, which parts are separable from each other to allow the flow of electrical energy between the mentioned To interrupt parts, the first part has a first coil, the second part a third coil, wherein the first and the third coil are formed and arranged so that when the mentioned parts are in the first position are located, the first and the third coil are inductively coupled, characterized in that the first part (11) has a second coil (22) which is movable into a position in which it with the first Coil (18) is inductively coupled when the mentioned parts are separated from each other, an impedance (23) in the circuit of the second coil (22) is connected, and means are assigned to the second part (10) to to move the second coil (22) out of the inductive coupling relationship with the first coil (18) if the mentioned Parts (10, 11) are moved into the first position. 2. Coupling according to claim 1, characterized by means by - 10 - 609829/0623 A * which the second spool (22) can be moved into a position in which it connects to the first spool (18) is inductively coupled when the mentioned parts are separated from each other. 3. Coupling according to claim 2, characterized in that the means for automatic movement by a spring (25) are formed. 4. Coupling according to claim 3, characterized by a movable one Insert (21) from which the second coil (22) is carried and which is loaded by the spring (25) is and cooperating Jvnschlag (26, 27) on the insert (21) and on the first part (11) to limit the movement of the insert in the direction in which the spring loads the insert into a position in which the first and second coils (18 and 22, respectively) are inductively coupled when the aforementioned parts are separated from one another are. 5. Coupling according to claim 1, characterized by a movable one Insert (21) carrying the second spool (22), the means for automatic movement being provided by a from the insert (21) carried first magnet (31) and a second magnet (32) are formed by the dem second part associated means is carried, which magnets are polarized so that they attract each other and be pulled towards each other when the mentioned parts are in the first position, so that / when the mentioned - 11 6098 2 9/0623 Parts are separated, the attraction between the magnets moves the insert into a position in which the first and second coils are inductively coupled. 6. Coupling according to claim 5, characterized in that one of the magnets is an electromagnet. 7. Coupling according to claim 5, characterized by a Stop on the insert (21) and air, first part, which stops cooperate to limit the movement of the insert (21) in the direction in which the insert is moved when the parts are urged into a position in which the first and second coils are inductively coupled when the mentioned parts are separated. 8. Coupling according to claim 1, characterized by a first core (15) made of ferromagnetic material, wherein the third coil (13) is wound around at least part of the first core. 9. Coupling according to claim 8, characterized by a second core (24) made of ferromagnetic ^ material, wherein the second coil (22) is wound around at least a portion of the second core with the second core the second coil is movable. 10. Coupling according to claim 9, characterized by a - 12 609829/0623. third core made of f er romagneti sham material, the first coil (18) around at least part of the third Core is wrapped around. 11. Coupling according to claim 10, characterized in that the mentioned cores are pot cores. 12. Coupling according to claim 9, characterized in that the ferromagnetic material is ferrite. 13. Coupling according to claim 1, characterized in that the impedance is a resistor. 14. Coupling according to claim 1, characterized in that each of the coils has a longitudinal axis, the coils are designed and arranged so that the longitudinal axes of all coils coincide when the mentioned parts are in the first position. 15. Coupling according to claim 14, characterized in that the second spool is movable into a position in which it is coaxially arranged within the first spool is when the mentioned parts are separated from each other. 16. Coupling according to claim 14, characterized in that the second spool is movable to a position in which - 13 609829/0623 the first coil is coaxially arranged within the second coil when the mentioned parts are separated from each other are. 17. Coupling according to claim 1, characterized in that each of the coils has a longitudinal axis, the coils being formed and arranged such that the longitudinal axes the first and the third coil coincide when the parts are in the first position, the second coil is spaced from one side of the first and third coil with their longitudinal axis is parallel to the longitudinal axes of the first and third coil when the parts are in their first Position are located, the second coil is movable into a position in which its longitudinal axis with the longitudinal axis of the first coil collapses when the mentioned parts are separated from each other. 18. Coupling according to claim 15, characterized in that the third coil Gleicha sig within the first coil is arranged when the parts are in the mentioned first position. 19. Coupling according to claim 16, characterized in that the first coil is equiaxed within the third coil is arranged when the mentioned parts are in the first position. - 14 609829/0623 20. Coupling according to claim 1, characterized in that at least two first coils, two second coils, two third coils and two impedances are provided, the first and the third coil so formed and are arranged that when the mentioned parts are in the first position, one of the first coils is inductively coupled to one of the third coils and the other first coil to the other third coil is inductively coupled, the second coils are movable in positions in which, when the mentioned parts from each other are separated, one of the second coils is inductively coupled to one of the first coils and the other second coil is inductively coupled to the other first coil, one of the impedances in the circuit of a of the second coil is connected, the other impedance is connected to the circuit of the other second coil is, wherein the means associated with the second part serve to move the second coils out of the inductive coupling relationship with the first coils, if the mentioned parts are moved into the first position. For: PELCON LIMITED PATOiTANWALTE OE-WK *. H. FIfJCKE, DIPU-ING. H. "OHS 0IPl _n -ING. t. STAEGSR - 15 - 809823/0623